An OFDM communication system is described that allows different values of D in a single domain where nodes are operating in different portions of frequency bands. For the power-line medium, G.9960 has defined two overlapped baseband bandplans, 50 MHz-PB and 100 MHz-PB. In this exemplary scenario, the level of frequency diversity is different depending on the bandplan, hence providing different header decodability if D is fixed to 1. If D is fixed to 2, then it increases reliability for the narrowband devices, but may also unnecessarily increase overhead for the wide-band devices. An exemplary aspect is therefore directed to techniques to accommodate different repetitions schemes (D=1, . . . , DMAX and H=1, . . . , HMAX) in a single domain, and still allow devices to communicate with one another where DMAX and HMAX can be larger than 2.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A wireless communication device, comprising: a wireless receiver configured to receive a wireless packet through a communication channel, formats of the wireless packet including a first packet format and a second packet format, the first packet format comprising a first header field carried by a first orthogonal frequency division multiplexing (OFDM) symbol, the second packet format comprising both the first header field carried by the first OFDM symbol and a second header field carried by a second OFDM symbol which follows the first OFDM symbol, and the second header field being a repetition of the first header field; and a demodulator configured to demodulate the received wireless packet, wherein the wireless receiver distinguishes the second packet format from the first packet format by detecting, from the received wireless packet, the second header field which repeats the first header field.
2. The wireless communication device of claim 1 , wherein the wireless receiver determines the received wireless packet as the second packet format when the second header field is detected from the wireless packet.
3. The wireless communication device of claim 1 , wherein the wireless receiver determines the received wireless packet as the first packet format when the second header field is not detected from the wireless packet.
4. The wireless communication device of claim 1 , wherein the first and second header fields contain information for decoding the wireless packet.
5. The wireless communication device of claim 1 , wherein the first and second header fields contain information related to a length of the wireless packet.
6. A wireless communication method, comprising: receiving a wireless packet through a communication channel, formats of the wireless packet including a first packet format and a second packet format, the first packet format comprising a first header field carried by a first orthogonal frequency division multiplexing (OFDM) symbol, the second packet format comprising both the first header field carried by the first OFDM symbol and a second header field carried by a second OFDM symbol which follows the first OFDM symbol, and the second header field being a repetition of the first header field; and demodulating the received wireless packet, wherein the second packet format is distinguished from the first packet format by detecting, from the received wireless packet, the second header field which repeats the first header field.
7. The wireless communication method of claim 6 , wherein the received wireless packet is determined as the second packet format when the second header field is detected from the wireless packet.
8. The wireless communication method of claim 6 , wherein the received wireless packet is determined as the first packet format when the second header field is not detected from the wireless packet.
9. The wireless communication method of claim 6 , wherein the first and second header fields contain information for decoding the wireless packet.
10. The wireless communication method of claim 6 , wherein the first and second header fields contain information related to a length of the wireless packet.
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December 29, 2020
December 28, 2021
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